Impact des bactéries féminisantes du genre Wolbachia sur l'évolution des chromosomes sexuels d'isopodes terrestres / Impact of a feminizing endosymbiotic bacteria (genus Wolbachia) on the evolution of terrestrial isopods sex chromosomes

Becking, Thomas

11 December 2017

Les Oniscidea présentent une diversité remarquable de systèmes chromosomiques de déterminisme du sexe (hétérogamétie mâle XX/XY ou hétérogamétie femelle ZW/ZZ), dont l'origine reste encore largement inconnue à ce jour. Il a été proposé que ces différents systèmes puissent être le produit de la coévolution entre les isopodes terrestres et Wolbachia, une bactérie endosymbiotique féminisante transmise verticalement par voie ovocytaire. Dans le but de caractériser l'impact de l'endosymbiose à Wolbachia sur l'évolution des mécanismes de déterminisme du sexe, nous avons utilisé une combinaison d'approches génomique, transcriptomique et d'expression de gènes. Tout d'abord, le génome de l'espèce Armadillidium nasatum (caractérisée par un système XX/XY) a été généré et ensuite annoté structurellement et fonctionnellement. A partir de ce génome, des approches de génomique comparatives ont permis la caractérisation de séquences liées au chromosomes Y, afin de mieux comprendre les processus impliqués dans la dégénérescence des gonosomes. Afin d'identifier des effecteurs liés au déterminisme ou à la différenciation du sexe, une approche par gènes candidats a permis de caractériser des gènes à domaines DM, connus pour être impliqués dans le déterminisme du sexe de nombreuses espèces, et d'en mesurer l'expression au cours du temps. Enfin, une phylogénie des Oniscidea a été réalisée en parallèle d'expériences de réversion de sexe afin d'estimer le nombre et la direction des transitions de systèmes d'hétérogamétie au cours de l'évolution des isopodes terrestres. Ces travaux contribuent à illustrer l'impact de l'endosymbiose sur l'évolution des mécanismes de déterminisme du sexe de l'hôte. / Oniscidea show a remarkable diversity of chromosomal sex determination systems (male heterogamety XX/XY or female heterogamety ZW / ZZ). However, the origin of such diversity is still largely unknown to date. It has been proposed that these different systems may be the product of the coevolution between terrestrial isopods and Wolbachia, a feminizing endosymbiotic bacteria transmitted vertically through oocytes. In order to characterize the impact of Wolbachia endosymbiosis on the evolution of sex determination mechanisms, we used a combination of genomic, transcriptomic and gene expression approaches. First, the genome of the species Armadillidium nasatum (characterized by an XX/XY system) was generated and then structurally and functionally annotated. From this genome, a comparative genomic approach allowed us to characterize sequences Y-linked, in order to better understand the processes involved in the sex chromosome degeneration. In order to identify effectors potentially related to sex determination or differentiation, a candidate gene approach has been used to characterize DM-domain genes, known to be involved in the sex determination pathways of many species, and then to measure their expression over development. Finally, a Oniscidea phylogeny was generated in parallel with sex-reversal experiments in order to characterize the number and the direction of the transitions of heterogenetic systems during the terrestrial isopods evolution. This work emphasize the impact of endosymbiosis on the evolution of host sex determination mechanisms.

Déterminisme du sexe

Hétérogametie

Chromosomes sexuels

Gènes à domaine DM

Wolbachia

Oniscidea

Génomique

Séquençage à haut débit

Sex determination

Heterogamety

Sex chromosomes

DM domain genes

Wolbachia

Oniscidea

Genomics

High-Throughput sequencing

572.8

Jesus Christ’s humanity in the contexts of the pre-fall and post-fall natures of humanity: a comparative and critical evaluative study of the views of Jack Sequeira, Millard J. Erickson and Norman R. Gulley

Mwale, Emanuel

12 1900

Bibliography: leaves 653-669 / Before God created human beings, He devised a plan to save them in case they sinned. In this plan, the second Person of the Godhead would become human. Thus, the incarnation of the second Person of the Godhead was solely for the purpose of saving fallen, sinful human beings. There would have been no incarnation if human beings had not sinned. Thus, the nature of the mission that necessitated the incarnation determined what kind of human nature Jesus was to assume. It was sin that necessitated the incarnation – sin as a tendency and sin as an act of disobedience. In His incarnational life and later through His death on Calvary’s cross, Jesus needed to deal with this dual problem of sin. In order for Him to achieve this, He needed to identify Himself with the fallen humanity in such a way that He would qualify to be the substitute for the fallen humanity. In His role as fallen humanity’s substitute, He would die vicariously and at the same time have sin as a tendency rendered impotent. Jesus needed to assume a human nature that would qualify Him to be an understanding and sympathetic High Priest. He needed to assume a nature that would qualify Him to be an example in overcoming temptation and suffering. Thus, in this study, after comparing and critically evaluating the Christological views of Jack Sequeira, Millard J. Erickson and Norman R. Gulley, I propose that Jesus assumed a unique post-fall (postlapsarian) human nature. He assumed the very nature that all human beings since humankind’s fall have, with its tendency or leaning towards sin. However, unlike other human beings, who are sinners by nature and need a saviour, Jesus was not a sinner. I contend that Jesus was unique because, first and foremost, He was conceived in Mary’s womb by the power of the Holy Spirit and was filled with the Holy Spirit throughout His earthly life. Second; He was the God-Man; and third, He lived a sinless life. This study contributes to literature on Christology, and uniquely to Christological dialogue between Evangelical and Seventh-day Adventist theologians. / Philosophy, Practical and Systematic Theology / D. Phil. (Systematic Theology)

Adoptionism

Alleles

Anhypostatic Christology

Anthropotokos

Alternative Christology

Apollinarianism

Apthartodocetism

Arianism

Augustinian model

Autosomal chromosomes

Autosomal inheritance

Born-again Christology

Chalcedonian creed

Christology from above

Christotokos

Chromosomes

Chromosomal abnormalities

Cloning

Co-dominance

Communicatio idiomatum

Complementary base pairing

Cri-du-chat syndrome

Deoxyribonucleic acid (DNA)

Diploid cell

Docetism

Dominant gene

Down syndrome

Dynamic incarnation

Dynamic monarchianism

Eastern Orthodox Christology

Ebionitism

Embryogenesis

Eutychianism

Evangelical Christology

Existential Christology

Functional Christology

Genes

Gene mutation

Gene expression

Genome

Genotype

Gnosticism

Hamartiology

Haploid cell

Heterozygous

History of Jesus’ Christology

Homoiousios Theology

Homozygous

Human cloning

Immaculate conception

Incarnation

Incarnational life

Inheritance

Karyotype

Kenoticism

Klinefelter syndrome

Logos-flesh Christology

Meiosis

Mitosis

Modalistic monarchianism

Monarchianism

Monophysitism

Mutation

Nestorianism

Nicene Creed

One-nature Christology

Ontological Christology

Organogenesis

Patripassianism

Phenotype

Polygenic inheritance

Post lapsarian view/model

Prelapsarian view/model

Recessive gene

Roman Catholic Christology

Sabellianism

Seventh-day Adventist Christology

Sex chromosomes

Sex-linked inheritance

Speculative Christology

Theotokos

Turner syndrome

Two-natures Christology

Unique post-fall Christology

Socinianism

Soteriology

Theotokos

Turner syndrome

Two-natures Christology

Unique post-fall Christology

Virginal conception

231.4

Seventh-Day Adventists -- Doctrines

Salvation -- Seventh-Day Adventists

Fall of man -- History of doctrines

Jesus Christ -- History of doctrines

Sequerra, Jack

Erickson, Millard J.

Gulley, Norman R.